;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020 Ludovic Courtès ;;; Copyright © 2016 Chris Marusich ;;; Copyright © 2017 Leo Famulari ;;; Copyright © 2017, 2020 Mathieu Othacehe ;;; Copyright © 2019, 2020, 2023 Janneke Nieuwenhuizen ;;; Copyright © 2019, 2020 Miguel Ángel Arruga Vivas ;;; Copyright © 2020 Maxim Cournoyer ;;; Copyright © 2020 Stefan ;;; Copyright © 2022 Karl Hallsby ;;; Copyright © 2022 Denis 'GNUtoo' Carikli ;;; ;;; This file is part of GNU Guix. ;;; ;;; GNU Guix is free software; you can redistribute it and/or modify it ;;; under the terms of the GNU General Public License as published by ;;; the Free Software Foundation; either version 3 of the License, or (at ;;; your option) any later version. ;;; ;;; GNU Guix is distributed in the hope that it will be useful, but ;;; WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with GNU Guix. If not, see . (define-module (gnu bootloader grub) #:use-module (guix build union) #:use-module (guix records) #:use-module (guix store) #:use-module (guix utils) #:use-module (guix gexp) #:use-module (gnu artwork) #:use-module (gnu bootloader) #:use-module (gnu system uuid) #:use-module (gnu system file-systems) #:use-module (gnu system keyboard) #:use-module (gnu system locale) #:use-module (gnu packages bootloaders) #:autoload (gnu packages gtk) (guile-cairo guile-rsvg) #:autoload (gnu packages xorg) (xkeyboard-config) #:use-module (ice-9 match) #:use-module (ice-9 regex) #:use-module (srfi srfi-1) #:use-module (srfi srfi-2) #:export (grub-theme grub-theme? grub-theme-image grub-theme-resolution grub-theme-color-normal grub-theme-color-highlight grub-theme-gfxmode install-grub-efi-removable make-grub-efi-netboot-installer grub-bootloader grub-efi-bootloader grub-efi-removable-bootloader grub-efi32-bootloader grub-efi-netboot-bootloader grub-efi-netboot-removable-bootloader grub-mkrescue-bootloader grub-minimal-bootloader grub-configuration)) ;;; Commentary: ;;; ;;; Configuration of GNU GRUB. ;;; ;;; Code: (define* (normalize-file file mount-point store-directory-prefix) "Strip MOUNT-POINT and prepend STORE-DIRECTORY-PREFIX, if any, to FILE, a G-expression or other lowerable object denoting a file name." (define (strip-mount-point mount-point file) (if mount-point (if (string=? mount-point "/") file #~(let ((file #$file)) (if (string-prefix? #$mount-point file) (substring #$file #$(string-length mount-point)) file))) file)) (define (prepend-store-directory-prefix store-directory-prefix file) (if store-directory-prefix #~(string-append #$store-directory-prefix #$file) file)) (prepend-store-directory-prefix store-directory-prefix (strip-mount-point mount-point file))) (define-record-type* ;; Default theme contributed by Felipe López. grub-theme make-grub-theme grub-theme? (image grub-theme-image (default (file-append %artwork-repository "/grub/GuixSD-fully-black-4-3.svg"))) (resolution grub-theme-resolution (default '(1024 . 768))) (color-normal grub-theme-color-normal (default '((fg . light-gray) (bg . black)))) (color-highlight grub-theme-color-highlight (default '((fg . yellow) (bg . black)))) (gfxmode grub-theme-gfxmode (default '("auto")))) ;list of string ;;; ;;; Background image & themes. ;;; (define (bootloader-theme config) "Return user defined theme in CONFIG if defined or a default theme otherwise." (or (bootloader-configuration-theme config) (grub-theme))) (define* (image->png image #:key width height) "Build a PNG of HEIGHT x WIDTH from IMAGE if its file suffix is \".svg\". Otherwise the picture in IMAGE is just copied." (computed-file "grub-image.png" (with-imported-modules '((gnu build svg)) (with-extensions (list guile-rsvg guile-cairo) #~(if (string-suffix? ".svg" #+image) (begin (use-modules (gnu build svg)) (svg->png #+image #$output #:width #$width #:height #$height)) (copy-file #+image #$output)))))) (define* (grub-background-image config) "Return the GRUB background image defined in CONFIG or #f if none was found. If the suffix of the image file is \".svg\", then it is converted into a PNG file with the resolution provided in CONFIG." (let* ((theme (bootloader-theme config)) (image (grub-theme-image theme))) (and image (match (grub-theme-resolution theme) (((? number? width) . (? number? height)) (image->png image #:width width #:height height)) (_ #f))))) (define (grub-locale-directory grub) "Generate a directory with the locales from GRUB." (define builder #~(begin (use-modules (ice-9 ftw)) (let ((locale (string-append #$grub "/share/locale")) (out #$output)) (mkdir out) (chdir out) (for-each (lambda (lang) (let ((file (string-append locale "/" lang "/LC_MESSAGES/grub.mo")) (dest (string-append lang ".mo"))) (when (file-exists? file) (copy-file file dest)))) (scandir locale))))) (computed-file "grub-locales" builder)) (define* (eye-candy config store-device store-mount-point #:key store-directory-prefix port) "Return a gexp that writes to PORT (a port-valued gexp) the 'grub.cfg' part concerned with graphics mode, background images, colors, and all that. STORE-DEVICE designates the device holding the store, and STORE-MOUNT-POINT is its mount point; these are used to determine where the background image and fonts must be searched for. STORE-DIRECTORY-PREFIX is a directory prefix to prepend to any store file name." (define (setup-gfxterm config) (if (memq 'gfxterm (bootloader-configuration-terminal-outputs config)) #~(format #f " if loadfont unicode; then set gfxmode=~a insmod all_video insmod gfxterm fi~%" #$(string-join (grub-theme-gfxmode (bootloader-theme config)) ";")) "")) (define (theme-colors type) (let* ((theme (bootloader-theme config)) (colors (type theme))) (string-append (symbol->string (assoc-ref colors 'fg)) "/" (symbol->string (assoc-ref colors 'bg))))) (define image (normalize-file (grub-background-image config) store-mount-point store-directory-prefix)) (and image #~(format #$port " # Set 'root' to the partition that contains /gnu/store. ~a ~a ~a insmod png if background_image ~a; then set color_normal=~a set color_highlight=~a else set menu_color_normal=cyan/blue set menu_color_highlight=white/blue fi~%" #$(grub-root-search store-device image) #$(setup-gfxterm config) #$(grub-setup-io config) #$image #$(theme-colors grub-theme-color-normal) #$(theme-colors grub-theme-color-highlight)))) ;;; ;;; Configuration file. ;;; (define* (keyboard-layout-file layout #:key (grub grub)) "Process the X keyboard layout description LAYOUT, a record, and return a file in the format for GRUB keymaps. LAYOUT must be present in the 'share/X11/xkb/symbols/' directory of 'xkeyboard-config'." (define builder (with-imported-modules '((guix build utils)) #~(begin (use-modules (guix build utils)) ;; 'grub-kbdcomp' passes all its arguments but '-o' to 'ckbcomp' ;; (from the 'console-setup' package). (invoke #+(file-append grub "/bin/grub-mklayout") "-i" #+(keyboard-layout->console-keymap layout) "-o" #$output)))) (computed-file (string-append "grub-keymap." (string-map (match-lambda (#\, #\-) (chr chr)) (keyboard-layout-name layout))) builder)) (define (grub-setup-io config) "Return GRUB commands to configure the input / output interfaces. The result is a string that can be inserted in grub.cfg." (let* ((symbols->string (lambda (list) (string-join (map symbol->string list) " "))) (outputs (bootloader-configuration-terminal-outputs config)) (inputs (bootloader-configuration-terminal-inputs config)) (unit (bootloader-configuration-serial-unit config)) (speed (bootloader-configuration-serial-speed config)) ;; Respectively, GRUB_TERMINAL_OUTPUT and GRUB_TERMINAL_INPUT, ;; as documented in GRUB manual section "Simple Configuration ;; Handling". (valid-outputs '(console serial serial_0 serial_1 serial_2 serial_3 gfxterm vga_text mda_text morse spkmodem)) (valid-inputs '(console serial serial_0 serial_1 serial_2 serial_3 at_keyboard usb_keyboard)) (io (string-append ;; UNIT and SPEED are arguments to the same GRUB command ;; ("serial"), so we process them together. (if (or unit speed) (string-append "serial" (if unit ;; COM ports 1 through 4 (if (and (exact-integer? unit) (<= unit 3) (>= unit 0)) (string-append " --unit=" (number->string unit)) #f) "") (if speed (if (exact-integer? speed) (string-append " --speed=" (number->string speed)) #f) "") "\n") "") (if (null? inputs) "" (string-append "terminal_input " (symbols->string (map (lambda (input) (if (memq input valid-inputs) input #f)) inputs)) "\n")) "terminal_output " (symbols->string (map (lambda (output) (if (memq output valid-outputs) output #f)) outputs))))) (format #f "~a" io))) (define (grub-root-search device file) "Return the GRUB 'search' command to look for DEVICE, which contains FILE, a gexp. The result is a gexp that can be inserted in the grub.cfg-generation code." ;; Usually FILE is a file name gexp like "/gnu/store/…-linux/vmlinuz", but ;; it can also be something like "(hd0,msdos1)/vmlinuz" in the case of ;; custom menu entries. In the latter case, don't emit a 'search' command. (if (and (string? file) (not (string-prefix? "/" file))) "" (match device ;; Preferably refer to DEVICE by its UUID or label. This is more ;; efficient and less ambiguous, see . ((? uuid? uuid) (format #f "search --fs-uuid --set ~a" (uuid->string device))) ((? file-system-label? label) (format #f "search --label --set ~a" (file-system-label->string label))) ((? (lambda (device) (and (string? device) (string-contains device ":/"))) nfs-uri) ;; If the device is an NFS share, then we assume that the expected ;; file on that device (e.g. the GRUB background image or the kernel) ;; has to be loaded over the network. Otherwise we would need an ;; additional device information for some local disk to look for that ;; file, which we do not have. ;; ;; We explicitly set "root=(tftp)" here even though if grub.cfg ;; had been loaded via TFTP, Grub would have set "root=(tftp)" ;; automatically anyway. The reason is if you have a system that ;; used to be on NFS but now is local, root would be set to local ;; disk. If you then selected an older system generation that is ;; supposed to boot from network in the Grub boot menu, Grub still ;; wouldn't load those files from network otherwise. ;; ;; TFTP is preferred to HTTP because it is used more widely and ;; specified in standards more widely--especially BOOTP/DHCPv4 ;; defines a TFTP server for DHCP option 66, but not HTTP. ;; ;; Note: DHCPv6 specifies option 59 to contain a boot-file-url, ;; which can contain a HTTP or TFTP URL. ;; ;; Note: It is assumed that the file paths are of a similar ;; setup on both the TFTP server and the NFS server (it is ;; not possible to search for files on TFTP). ;; ;; TODO: Allow HTTP. "set root=(tftp)") ((or #f (? string?)) #~(format #f "search --file --set ~a" #$file))))) (define* (make-grub-configuration grub config entries #:key (locale #f) (system (%current-system)) (old-entries '()) (store-crypto-devices '()) store-directory-prefix) "Return the GRUB configuration file corresponding to CONFIG, a object, and where the store is available at STORE-FS, a object. OLD-ENTRIES is taken to be a list of menu entries corresponding to old generations of the system. STORE-CRYPTO-DEVICES contain the UUIDs of the encrypted units that must be unlocked to access the store contents. STORE-DIRECTORY-PREFIX may be used to specify a store prefix, as is required when booting a root file system on a Btrfs subvolume." (define all-entries (append entries (bootloader-configuration-menu-entries config))) (define (menu-entry->gexp entry) (let ((label (menu-entry-label entry)) (linux (menu-entry-linux entry)) (device (menu-entry-device entry)) (device-mount-point (menu-entry-device-mount-point entry)) (multiboot-kernel (menu-entry-multiboot-kernel entry)) (chain-loader (menu-entry-chain-loader entry))) (cond (linux (let ((arguments (menu-entry-linux-arguments entry)) (linux (normalize-file linux device-mount-point store-directory-prefix)) (initrd (normalize-file (menu-entry-initrd entry) device-mount-point store-directory-prefix)) (extra-initrd (bootloader-configuration-extra-initrd config))) ;; Here DEVICE is the store and DEVICE-MOUNT-POINT is its mount point. ;; Use the right file names for LINUX and INITRD in case ;; DEVICE-MOUNT-POINT is not "/", meaning that the store is on a ;; separate partition. ;; When STORE-DIRECTORY-PREFIX is defined, prepend it the linux and ;; initrd paths, to allow booting from a Btrfs subvolume. #~(format port "menuentry ~s { ~a linux ~a ~a initrd ~a ~a }~%" #$label #$(grub-root-search device linux) #$linux (string-join (list #$@arguments)) (or #$extra-initrd "") #$initrd))) (multiboot-kernel (let* ((kernel (menu-entry-multiboot-kernel entry)) (arguments (menu-entry-multiboot-arguments entry)) ;; Choose between device names as understood by Mach's built-in ;; IDE driver ("hdX") and those understood by rumpdisk ("wdX" ;; in the "noide" case). (disk (if (member "noide" arguments) "w" "h")) (modules (menu-entry-multiboot-modules entry)) (root-index 1)) ; XXX EFI will need root-index 2 #~(format port " menuentry ~s { multiboot ~a root=part:~a:device:~ad0~a~a }~%" #$label #$kernel #$root-index #$disk (string-join (list #$@arguments) " " 'prefix) (string-join (map string-join '#$modules) "\n module " 'prefix)))) (chain-loader #~(format port " menuentry ~s { ~a chainloader ~a }~%" #$label #$(grub-root-search device chain-loader) #$chain-loader))))) (define (crypto-devices) (define (crypto-device->cryptomount dev) (if (uuid? dev) #~(format port "cryptomount -u ~a~%" ;; cryptomount only accepts UUID without the hypen. #$(string-delete #\- (uuid->string dev))) ;; Other type of devices aren't implemented. #~())) (let ((devices (map crypto-device->cryptomount store-crypto-devices)) (modules #~(format port "insmod luks~%insmod luks2~%"))) (if (null? devices) devices (cons modules devices)))) (define (sugar) (let* ((entry (first all-entries)) (device (menu-entry-device entry)) (mount-point (menu-entry-device-mount-point entry))) (eye-candy config device mount-point #:store-directory-prefix store-directory-prefix #:port #~port))) (define locale-config (let* ((entry (first all-entries)) (device (menu-entry-device entry)) (mount-point (menu-entry-device-mount-point entry))) #~(let ((locale #$(and locale (locale-definition-source (locale-name->definition locale)))) (locales #$(and locale (normalize-file (grub-locale-directory grub) mount-point store-directory-prefix)))) (when locale (format port "\ # Localization configuration. ~asearch --file --set ~a/en@quot.mo set locale_dir=~a set lang=~a~%" ;; Skip the search if there is an image, as it has already ;; been performed by eye-candy and traversing the store is ;; an expensive operation. #$(if (grub-theme-image (bootloader-theme config)) "# " "") locales locales locale))))) (define keyboard-layout-config (let* ((layout (bootloader-configuration-keyboard-layout config)) (keymap* (and layout (keyboard-layout-file layout #:grub grub))) (entry (first all-entries)) (device (menu-entry-device entry)) (mount-point (menu-entry-device-mount-point entry)) (keymap (and keymap* (normalize-file keymap* mount-point store-directory-prefix)))) #~(when #$keymap (format port "\ insmod keylayouts keymap ~a~%" #$keymap)))) (define builder #~(call-with-output-file #$output (lambda (port) (format port "# This file was generated from your Guix configuration. Any changes # will be lost upon reconfiguration. ") #$@(crypto-devices) #$(sugar) #$locale-config #$keyboard-layout-config (format port " set default=~a set timeout=~a~%" #$(bootloader-configuration-default-entry config) #$(bootloader-configuration-timeout config)) #$@(map menu-entry->gexp all-entries) #$@(if (pair? old-entries) #~((format port " submenu \"GNU system, old configurations...\" {~%") #$@(map menu-entry->gexp old-entries) (format port "}~%")) #~()) (format port " if [ \"${grub_platform}\" == efi ]; then menuentry \"Firmware setup\" { fwsetup } fi~%")))) ;; Since this file is rather unique, there's no point in trying to ;; substitute it. (computed-file "grub.cfg" builder #:options '(#:local-build? #t #:substitutable? #f))) (define (grub-configuration-file config . args) (let* ((bootloader (bootloader-configuration-bootloader config)) (grub (bootloader-package bootloader))) (apply make-grub-configuration grub config args))) (define (grub-efi-configuration-file . args) (apply make-grub-configuration grub-efi args)) (define grub-cfg "/boot/grub/grub.cfg") ;;; ;;; Install procedures. ;;; (define install-grub #~(lambda (bootloader device mount-point) (let ((grub (string-append bootloader "/sbin/grub-install")) (install-dir (string-append mount-point "/boot"))) ;; Install GRUB on DEVICE which is mounted at MOUNT-POINT. If DEVICE ;; is #f, then we populate the disk-image rooted at MOUNT-POINT. (if device (begin ;; Tell 'grub-install' that there might be a LUKS-encrypted ;; /boot or root partition. (setenv "GRUB_ENABLE_CRYPTODISK" "y") ;; Hide potentially confusing messages from the user, such as ;; "Installing for i386-pc platform." (invoke/quiet grub "--no-floppy" "--target=i386-pc" "--boot-directory" install-dir device)) ;; When creating a disk-image, only install a font and GRUB modules. (let* ((fonts (string-append install-dir "/grub/fonts"))) (mkdir-p fonts) (copy-file (string-append bootloader "/share/grub/unicode.pf2") (string-append fonts "/unicode.pf2")) (copy-recursively (string-append bootloader "/lib/") install-dir)))))) (define install-grub-disk-image #~(lambda (bootloader root-index image) ;; Install GRUB on the given IMAGE. The root partition index is ;; ROOT-INDEX. (let ((grub-mkimage (string-append bootloader "/bin/grub-mkimage")) (modules '("biosdisk" "part_msdos" "fat" "ext2")) (grub-bios-setup (string-append bootloader "/sbin/grub-bios-setup")) (root-device (format #f "hd0,msdos~a" root-index)) (boot-img (string-append bootloader "/lib/grub/i386-pc/boot.img")) (device-map "device.map")) ;; Create a minimal, standalone GRUB image that will be written ;; directly in the MBR-GAP (space between the end of the MBR and the ;; first partition). (apply invoke grub-mkimage "-O" "i386-pc" "-o" "core.img" "-p" (format #f "(~a)/boot/grub" root-device) modules) ;; Create a device mapping file. (call-with-output-file device-map (lambda (port) (format port "(hd0) ~a~%" image))) ;; Copy the default boot.img, that will be written on the MBR sector ;; by GRUB-BIOS-SETUP. (copy-file boot-img "boot.img") ;; Install both the "boot.img" and the "core.img" files on the given ;; IMAGE. On boot, the MBR sector will execute the minimal GRUB ;; written in the MBR-GAP. GRUB configuration and missing modules will ;; be read from ROOT-DEVICE. (invoke grub-bios-setup "-m" device-map "-r" root-device "-d" "." image)))) (define install-grub-efi #~(lambda (bootloader efi-dir mount-point) ;; There is nothing useful to do when called in the context of a disk ;; image generation. (when efi-dir ;; Install GRUB onto the EFI partition mounted at EFI-DIR, for the ;; system whose root is mounted at MOUNT-POINT. (let ((grub-install (string-append bootloader "/sbin/grub-install")) (install-dir (string-append mount-point "/boot")) ;; When installing Guix, it's common to mount EFI-DIR below ;; MOUNT-POINT rather than /boot/efi on the live image. (target-esp (if (file-exists? (string-append mount-point efi-dir)) (string-append mount-point efi-dir) efi-dir))) ;; Tell 'grub-install' that there might be a LUKS-encrypted /boot or ;; root partition. (setenv "GRUB_ENABLE_CRYPTODISK" "y") (invoke/quiet grub-install "--boot-directory" install-dir "--bootloader-id=Guix" "--efi-directory" target-esp))))) (define install-grub-efi-removable #~(lambda (bootloader efi-dir mount-point) ;; NOTE: mount-point is /mnt in guix system init /etc/config.scm /mnt/point ;; NOTE: efi-dir comes from target list of booloader configuration ;; There is nothing useful to do when called in the context of a disk ;; image generation. (when efi-dir ;; Install GRUB onto the EFI partition mounted at EFI-DIR, for the ;; system whose root is mounted at MOUNT-POINT. (let ((grub-install (string-append bootloader "/sbin/grub-install")) (install-dir (string-append mount-point "/boot")) ;; When installing Guix, it's common to mount EFI-DIR below ;; MOUNT-POINT rather than /boot/efi on the live image. (target-esp (if (file-exists? (string-append mount-point efi-dir)) (string-append mount-point efi-dir) efi-dir))) ;; Tell 'grub-install' that there might be a LUKS-encrypted /boot or ;; root partition. (setenv "GRUB_ENABLE_CRYPTODISK" "y") (invoke/quiet grub-install "--boot-directory" install-dir "--removable" ;; "--no-nvram" "--bootloader-id=Guix" "--efi-directory" target-esp))))) (define install-grub-efi32 #~(lambda (bootloader efi-dir mount-point) ;; There is nothing useful to do when called in the context of a disk ;; image generation. (when efi-dir ;; Install GRUB onto the EFI partition mounted at EFI-DIR, for the ;; system whose root is mounted at MOUNT-POINT. (let ((grub-install (string-append bootloader "/sbin/grub-install")) (install-dir (string-append mount-point "/boot")) ;; When installing Guix, it's common to mount EFI-DIR below ;; MOUNT-POINT rather than /boot/efi on the live image. (target-esp (if (file-exists? (string-append mount-point efi-dir)) (string-append mount-point efi-dir) efi-dir))) ;; Tell 'grub-install' that there might be a LUKS-encrypted /boot or ;; root partition. (setenv "GRUB_ENABLE_CRYPTODISK" "y") (invoke/quiet grub-install "--boot-directory" install-dir "--bootloader-id=Guix" (cond ((target-x86?) "--target=i386-efi") ((target-arm?) "--target=arm-efi")) "--efi-directory" target-esp))))) (define* (make-grub-efi-netboot-installer grub-efi grub-cfg subdir) "Make a bootloader-installer for a grub-efi-netboot bootloader, which expects its files in SUBDIR and its configuration file in GRUB-CFG. As a grub-efi-netboot package is already pre-installed by 'grub-mknetdir', the installer basically copies all files from the bootloader-package (or profile) into the bootloader-target directory. Additionally for network booting over TFTP, two relative symlinks to the store and to the GRUB-CFG file are necessary. Due to this a TFTP root directory must not be located on a FAT file-system. If the bootloader-target does not support symlinks, then it is assumed to be a kind of EFI System Partition (ESP). In this case an intermediate configuration file is created with the help of GRUB-EFI to load the GRUB-CFG. The installer is usable for any efi-bootloader-chain, which prepares the bootloader-profile in a way ready for copying. The installer does not manipulate the system's 'UEFI Boot Manager'. The returned installer accepts the BOOTLOADER, TARGET and MOUNT-POINT arguments. Its job is to copy the BOOTLOADER, which must be a pre-installed grub-efi-netboot package with a SUBDIR like efi/boot or efi/Guix, below the directory TARGET for the system whose root is mounted at MOUNT-POINT. MOUNT-POINT is the last argument in 'guix system init /etc/config.scm mnt/point' or '/' for other 'guix system' commands. Where TARGET comes from the targets argument given to the bootloader-configuration in: (operating-system (bootloader (bootloader-configuration (targets '(\"/boot/efi\")) …)) …) TARGET is required to be an absolute directory name, usually mounted via NFS, and finally needs to be provided by a TFTP server as the TFTP root directory. Usually the installer will be used to prepare network booting over TFTP. Then GRUB will load tftp://server/SUBDIR/grub.cfg and this file will instruct it to load more files from the store like tftp://server/gnu/store/…-linux…/Image. To make this possible two symlinks are created. The first symlink points relatively form MOUNT-POINT/TARGET/SUBDIR/grub.cfg to MOUNT-POINT/boot/grub/grub.cfg, and the second symlink points relatively from MOUNT-POINT/TARGET/%store-prefix to MOUNT-POINT/%store-prefix. It is important to note that these symlinks need to be relative, as the absolute paths on the TFTP server side are unknown. It is also important to note that both symlinks will point outside the TFTP root directory and that the TARGET/%store-prefix symlink makes the whole store accessible via TFTP. Possibly the TFTP server must be configured to allow accesses outside its TFTP root directory. This all may need to be considered for security aspects. It is advised to disable any TFTP write access! The installer can also be used to prepare booting from local storage, if the underlying file-system, like FAT on an EFI System Partition (ESP), does not support symlinks. In this case the MOUNT-POINT/TARGET/SUBDIR/grub.cfg will be created with the help of GRUB-EFI to load the /boot/grub/grub.cfg file. A symlink to the store is not needed in this case." (with-imported-modules '((guix build union)) #~(lambda (bootloader target mount-point) ;; In context of a disk image creation TARGET will be #f and an ;; installer is expected to do necessary installations on MOUNT-POINT, ;; which will become the root file system. If TARGET is #f, this ;; installer has nothing to do, as it only cares about the EFI System ;; Partition (ESP). (when target (use-modules ((guix build union) #:select (symlink-relative)) (ice-9 popen) (ice-9 rdelim)) (let* ((mount-point/target (string-append mount-point target "/")) ;; When installing Guix, it is common to mount TARGET below ;; MOUNT-POINT rather than the root directory. (bootloader-target (if (file-exists? mount-point/target) mount-point/target target)) (store (string-append mount-point (%store-prefix))) (store-link (string-append bootloader-target (%store-prefix))) (grub-cfg (string-append mount-point #$grub-cfg)) (grub-cfg-link (string-append bootloader-target #$subdir "/" (basename grub-cfg)))) ;; Copy the bootloader into the bootloader-target directory. ;; Should we beforehand recursively delete any existing file? (copy-recursively bootloader bootloader-target #:follow-symlinks? #t #:log (%make-void-port "w")) ;; For TFTP we need to install additional relative symlinks. ;; If we install on an EFI System Partition (ESP) or some other FAT ;; file-system, then symlinks cannot be created and are not needed. ;; Therefore we ignore exceptions when trying. ;; Prepare the symlink to the grub.cfg. (mkdir-p (dirname grub-cfg-link)) (false-if-exception (delete-file grub-cfg-link)) (if (unspecified? (false-if-exception (symlink-relative grub-cfg grub-cfg-link))) ;; Symlinks are supported. (begin ;; Prepare the symlink to the store. (mkdir-p (dirname store-link)) (false-if-exception (delete-file store-link)) (symlink-relative store store-link)) ;; Creating symlinks does not seem to be supported. Probably ;; an ESP is used. Add a script to search and load the actual ;; grub.cfg. (let* ((probe #$(file-append grub-efi "/sbin/grub-probe")) (port (open-pipe* OPEN_READ probe "--target=fs_uuid" grub-cfg)) (search-root (match (read-line port) ((? eof-object?) ;; There is no UUID available. As a fallback search ;; everywhere for the grub.cfg. (string-append "search --file --set " #$grub-cfg)) (fs-uuid ;; The UUID to load the grub.cfg from is known. (string-append "search --fs-uuid --set " fs-uuid)))) (load-grub-cfg (string-append "configfile " #$grub-cfg))) (close-pipe port) (with-output-to-file grub-cfg-link (lambda () (display (string-join (list search-root load-grub-cfg) "\n"))))))))))) ;;; ;;; Bootloader definitions. ;;; ;;; For all these grub-bootloader variables the path to /boot/grub/grub.cfg ;;; is fixed. Inheriting and overwriting the field 'configuration-file' will ;;; break 'guix system delete-generations', 'guix system switch-generation', ;;; and 'guix system roll-back'. (define grub-bootloader (bootloader (name 'grub) (package grub) (installer install-grub) (disk-image-installer install-grub-disk-image) (configuration-file grub-cfg) (configuration-file-generator grub-configuration-file))) (define grub-minimal-bootloader (bootloader (inherit grub-bootloader) (package grub-minimal))) (define grub-efi-bootloader (bootloader (name 'grub-efi) (package grub-efi) (installer install-grub-efi) (disk-image-installer #f) (configuration-file grub-cfg) (configuration-file-generator grub-configuration-file))) (define grub-efi-removable-bootloader (bootloader (inherit grub-efi-bootloader) (name 'grub-efi-removable-bootloader) (installer install-grub-efi-removable))) (define grub-efi32-bootloader (bootloader (inherit grub-efi-bootloader) (installer install-grub-efi32) (name 'grub-efi32) (package grub-efi32))) (define (make-grub-efi-netboot-bootloader name subdir) (bootloader (name name) (package (make-grub-efi-netboot (symbol->string name) subdir)) (installer (make-grub-efi-netboot-installer grub-efi grub-cfg subdir)) (disk-image-installer #f) (configuration-file grub-cfg) (configuration-file-generator grub-efi-configuration-file))) (define grub-efi-netboot-bootloader (make-grub-efi-netboot-bootloader 'grub-efi-netboot-bootloader "efi/Guix")) (define grub-efi-netboot-removable-bootloader (make-grub-efi-netboot-bootloader 'grub-efi-netboot-removable-bootloader "efi/boot")) (define grub-mkrescue-bootloader (bootloader (inherit grub-efi-bootloader) (package grub-hybrid))) ;;; ;;; Compatibility macros. ;;; (define-syntax grub-configuration (syntax-rules (grub) ((_ (grub package) fields ...) (if (eq? package grub) (bootloader-configuration (bootloader grub-bootloader) fields ...) (bootloader-configuration (bootloader grub-efi-bootloader) fields ...))) ((_ fields ...) (bootloader-configuration (bootloader grub-bootloader) fields ...)))) ;;; grub.scm ends here